CN204174479U - A kind of impregnation tank with heat sink - Google Patents
A kind of impregnation tank with heat sink Download PDFInfo
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- CN204174479U CN204174479U CN201420543297.1U CN201420543297U CN204174479U CN 204174479 U CN204174479 U CN 204174479U CN 201420543297 U CN201420543297 U CN 201420543297U CN 204174479 U CN204174479 U CN 204174479U
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- interlayer
- impregnation
- impregnation tank
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Abstract
The utility model proposes a kind of impregnation tank with heat sink, relate to the technical field of gum dipped paper impregnation equipment, in order to solve, existing impregnation tank temperature is high causes the ropy problem of gum dipped paper; Impregnation tank should be comprised with the impregnation tank of heat sink, impregnation tank outer wall is provided with interlayer, interlayer is built with cold-producing medium, interlayer wall is that undaform is arranged, interlayer is also connected with cold storage tank, interlayer is communicated with cold storage tank with discharge nozzle by feed pipe, the position of impregnation tank bottom surface is higher than the position of cold storage tank end face, feed pipe is provided with feed pump, the first temperature sensor is provided with in cold storage tank, be provided with the second temperature sensor in impregnation tank, feed pump, the first temperature sensor are all connected with switch board with the second temperature sensor; The utility model is lowered the temperature to impregnation water by the cold-producing medium in interlayer, and interlayer wall is arranged in undaform, adds the contact area of interlayer and air, reduces the temperature of cold-producing medium in time, guarantees that impregnation coolant-temperature gage is suitable for, avoids gum dipped paper to occur quality problems.
Description
Technical field
The utility model relates to the technical field of gum dipped paper impregnation equipment, refers to a kind of impregnation tank with heat sink especially.
Background technology
Gum dipped paper plays balanced action to floor in the overlaying of floor, and it is indispensable to be that consolidated floor overlays.At present, secondary dipping technique is all have employed in the production process major part of gum dipped paper, soaking adopts urea-formaldehyde resin adhesive (UF glue) or melamine-formaldehyde resin adhesive (MUF glue) to flood, secondary dipping adopts the top layer of melamine (MF) impregnated resin to gum dipped paper to be coated with, gum dipped paper is made to play protection against the tide, fire-retardant effect, like this, production cost can be reduced.
Owing to needing to carry out heating and dry process to printing paper after soaking, printing paper temperature is raised, it can cause impregnation coolant-temperature gage in secondary dipping tank to raise gradually, under normal circumstances, in secondary dipping tank, the temperature of impregnation water can reach 45-50 DEG C, after impregnation coolant-temperature gage raises in secondary dipping tank, gum dipped paper is easily caused to occur several quality problems.
Utility model content
The utility model proposes a kind of impregnation tank with heat sink, solve that impregnation tank temperature in prior art is high causes the ropy problem of gum dipped paper.
The technical solution of the utility model is achieved in that and comprises impregnation tank, and described impregnation tank outer wall is provided with interlayer, and described interlayer is built with cold-producing medium, and interlayer wall is that undaform is arranged; Described interlayer is also connected with cold storage tank, and described interlayer is communicated with a discharge nozzle by a feed pipe with described cold storage tank, and the position of described impregnation tank bottom surface is higher than the position of described cold storage tank end face, and described feed pipe is provided with feed pump; Described feed pump is connected with switch board, is provided with the first temperature sensor in described cold storage tank, is provided with the second temperature sensor in described impregnation tank, and described first temperature sensor is connected with described switch board respectively by wire with described second temperature sensor.
The utility model is by the setting of interlayer, refrigerant circulation is made to pass through interlayer, thus cooling process is carried out to impregnation water, under the effect of switch board, cold-producing medium enters interlayer by feed pump, and is flowed out by discharge nozzle, under gravity, cold-producing medium flow to cold storage tank automatically, thus completes the circulation of cold-producing medium; Interlayer wall is also arranged in undaform, adds the contact area of interlayer and air, thus lowers the temperature to cold-producing medium in time, to guarantee the proper temperature of impregnation water, avoids gum dipped paper to occur quality problems; The temperature of the first temperature sensor and the second temperature sensor Real-Time Monitoring cold-producing medium and impregnation water, convenient control.
As the preferred embodiment of one, described switch board comprises controller and inductor, and described first temperature sensor is all connected with described inductor with described second temperature sensor, and described feed pump is connected with described controller.The temperature conditions of inductor induction impregnation water and cold-producing medium, controller controls the ruuning situation of refrigerant charge pump, thus carries out comprehensive monitoring and control to immersing glue process.
As the preferred embodiment of one, described cold storage tank is also connected with refrigeration machine, and described refrigeration machine is also connected with described controller.If under the effect of interlayer inner refrigerant and outside air, when still can not meet the cooling demand of impregnation water, refrigeration machine is started by switch board, by refrigeration machine, the temperature of cold-producing medium is reduced further, thus meet the demand of impregnation water for cooling, in immersing glue process, there will not be quality problems with general warranty printing paper.
As the preferred embodiment of one, described feed pump input and output are respectively equipped with the first electromagnetic valve and the second electromagnetic valve, described discharge nozzle is also provided with the 3rd electromagnetic valve, described first electromagnetic valve, the second electromagnetic valve are connected with described controller respectively by wire with the 3rd electromagnetic valve.Switch board can control the switching manipulation of the first electromagnetic valve, the second electromagnetic valve and the 3rd electromagnetic valve easily, and meanwhile, the setting of three electromagnetic valves, is convenient to control the mobility status of cold-producing medium; When not needing refrigeration, can by three closed electromagnetic valves, the setting of electromagnetic valve is also convenient to carry out inspection and maintenance to feed pump.
As the preferred embodiment of one, described discharge nozzle is also provided with flow sensor, described flow sensor is connected with described inductor by wire.Detected the mobility status of interlayer inner refrigerant by the flow sensor on discharge nozzle, be convenient to control interlayer inner refrigerant in all directions.
As the preferred embodiment of one, the height of described interlayer is less than the height of described impregnation tank.Because in impregnation tank, impregnation water can not be filled completely, the height of interlayer only needs the height being greater than impregnation water, to utilize the energy to greatest extent, avoids the waste of energy.
Operation principle: start switch board, controls the 3rd electromagnetic valve, the second electromagnetic valve and the first electromagnetic valve by switch board and opens successively, and start feed pump, cold-producing medium is made to enter interlayer by cold storage tank through feed pump, then, then flow to cold storage tank by discharge nozzle, thus complete circulating of cold-producing medium; When first temperature sensor and the second temperature sensor senses can not meet the cooling demand of impregnation water to the temperature of cold-producing medium, switch board controls refrigeration machine and starts, until the temperature of cold-producing medium is satisfied the demand, then stops refrigeration machine, thus economize energy.
The beneficial effects of the utility model: the utility model is provided with interlayer outside impregnation tank, refrigerant circulation by interlayer thus to impregnation water carry out cooling process; Interlayer wall is also arranged in undaform, add the contact area of interlayer and air, thus in time cold-producing medium is lowered the temperature, to guarantee the proper temperature of impregnation water, and under the synergism of refrigeration machine, the temperature of cold-producing medium is adjusted, to make it satisfy the demand better, avoids gum dipped paper to occur quality problems; Should be the improvement carried out on original impregnation tank basis with the impregnation tank of heat sink, its structure be simple, is convenient to realize, and it is convenient to control, and precise control, substantially increases the quality of gum dipped paper.
Accompanying drawing explanation
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
Fig. 1 is the planar structure schematic diagram of the utility model embodiment;
Fig. 2 is the frame diagram of Fig. 1 circuit connection structure;
In figure: 1-impregnation tank; 2-second temperature sensor; 3-interlayer; 4-the 3rd electromagnetic valve; 5-second electromagnetic valve; 6-feed pump; 7-first electromagnetic valve; 8-first temperature sensor; 9-cold storage tank; 10-refrigeration machine; 11-switch board; 12-inductor; 13-controller.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.
Accompanying drawings 1, accompanying drawing 2, the utility model comprises impregnation tank 1, impregnation tank 1 outer wall is provided with interlayer 3, interlayer 3 is built with cold-producing medium, the utility model adds interlayer 3 in the outside of original impregnation tank 1, by the cold-producing medium in interlayer 3, cooling process is carried out to impregnation water, thus ensure that the suitable temperature of impregnation water, avoid gum dipped paper to occur several quality problems; This simplicity of design, cost-saving, do not need to change impregnation tank 1.Meanwhile, interlayer wall is that undaform is arranged, and the interlayer wall of undaform considerably increases the contact area of cold-producing medium and air, thus lowers the temperature to cold-producing medium in time, improves cold-producing medium to the cooling efficiency of impregnation water; Cold-producing medium in interlayer 3 can be running water, also can be other cold-producing medium.
Interlayer 3 is also connected with cold storage tank 9, and interlayer 3 is communicated with a discharge nozzle by a feed pipe with cold storage tank 9, and the position of impregnation tank 1 bottom surface is higher than the position of cold storage tank 9 end face, and feed pipe is provided with feed pump 6, and feed pump 6 is connected with switch board 11; Interlayer 3 side is communicated with feed pipe, enters interlayer 3 for cold-producing medium, and interlayer 3 opposite side is communicated with cold storage tank 9 by discharge nozzle, makes cold-producing medium form closed cycle between interlayer 3 and cold storage tank 9; Cold-producing medium enters interlayer 3 by feed pump 6, and is flowed out by discharge nozzle, and under gravity, cold-producing medium flow to cold storage tank 9 automatically, thus completes the circulation of cold-producing medium.
Be provided with the first temperature sensor 8 in cold storage tank 9, be provided with the second temperature sensor 2, first temperature sensor 8 in impregnation tank 1 and be connected with switch board 11 respectively by wire with the second temperature sensor 2; Switch board 11 comprises controller 13 and inductor 12, first temperature sensor 8 is all connected with inductor 12 with the second temperature sensor 2, and feed pump 6 is connected with controller 13; Cold storage tank 9 is also connected with refrigeration machine 10, and refrigeration machine 10 is also connected with controller 13; For simplicity, not shown wire in Fig. 1, describes the annexation of switch board 11 and each components and parts in detail in Fig. 2.Whether the setting of switch board 11, is controlled by switch board 11 pairs of feed pumps 6 and refrigeration machine 10, and control refrigeration machine 10 and feed pump 6 according to the temperature information that the first temperature sensor 8 is responded to and start, thus accurately controls the temperature of cold-producing medium, with economize energy.Inductor 12 responds to the temperature of the first temperature sensor 8 and the second temperature sensor 2, and controls feed pump 6 by controller 13 and start, and when the temperature of cold-producing medium can not meet the cooling demand of impregnation water, starts refrigeration machine 10, the temperature of cold-producing medium is reduced.
Feed pump 6 input and output are respectively equipped with the first electromagnetic valve 7 and the second electromagnetic valve 5, discharge nozzle are also provided with the 3rd electromagnetic valve 4, first electromagnetic valve 7, second electromagnetic valve 5 and are connected with controller 13 respectively by wire with the 3rd electromagnetic valve 4; Discharge nozzle can also be provided with flow sensor, and not shown, flow sensor is connected with inductor 12 by wire.Concentrated by controller 13 and electromagnetic valve is controlled, make simple to operate, safeguard and overhaul conveniently; Meanwhile, by detecting the traffic conditions of cold-producing medium on discharge nozzle, the temperature of impregnation water can also be adjusted in time, can select according to actual conditions.
The height of interlayer 3 is less than the height of impregnation tank 1, the height of reasonable sandwich establishment 3, fully to improve heat exchange efficiency, meanwhile, can also avoid the waste of the energy.
Operation principle: start switch board 11, the 3rd electromagnetic valve 4, second electromagnetic valve 5 is controlled and the first electromagnetic valve 7 is opened successively by switch board 11, and start feed pump 6, cold-producing medium is made to enter interlayer 3 by cold storage tank 9 through feed pump 6, then, flow to cold storage tank 9 by discharge nozzle again, thus complete circulating of cold-producing medium; When the first temperature sensor 8 and the second temperature sensor 2 sense that the temperature of cold-producing medium can not meet the cooling demand of impregnation water, switch board 11 controls refrigeration machine 10 and starts, until the temperature of cold-producing medium is satisfied the demand, then stops refrigeration machine 10, thus economize energy.
The beneficial effects of the utility model: the utility model is provided with interlayer 3 outside impregnation tank 1, refrigerant circulation by interlayer 3, thus carries out cooling process to impregnation water; Interlayer wall is also arranged in undaform, add the contact area of interlayer 3 and air, thus in time cold-producing medium is lowered the temperature, to guarantee the proper temperature of impregnation water, and under the synergism of refrigeration machine 10, the temperature of cold-producing medium is adjusted, to make it satisfy the demand better, avoids gum dipped paper to occur quality problems; Should be the improvement carried out on original impregnation tank 1 basis with the impregnation tank 1 of heat sink, its structure be simple, is convenient to realize, and it is convenient to control, and precise control, substantially increases the quality of gum dipped paper.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (6)
1. with an impregnation tank for heat sink, comprise impregnation tank, it is characterized in that: described impregnation tank outer wall is provided with interlayer, described interlayer is built with cold-producing medium, and interlayer wall is that undaform is arranged;
Described interlayer is also connected with cold storage tank, and described interlayer is communicated with a discharge nozzle by a feed pipe with described cold storage tank, and the position of described impregnation tank bottom surface is higher than the position of described cold storage tank end face, and described feed pipe is provided with feed pump;
Described feed pump is connected with switch board, is provided with the first temperature sensor in described cold storage tank, is provided with the second temperature sensor in described impregnation tank, and described first temperature sensor is connected with described switch board respectively by wire with described second temperature sensor.
2. the impregnation tank with heat sink according to claim 1, is characterized in that:
Described switch board comprises controller and inductor, and described first temperature sensor is all connected with described inductor with described second temperature sensor, and described feed pump is connected with described controller.
3. the impregnation tank with heat sink according to claim 2, is characterized in that:
Described cold storage tank is also connected with refrigeration machine, and described refrigeration machine is also connected with described controller.
4. the impregnation tank with heat sink according to claim 3, is characterized in that:
Described feed pump input and output are respectively equipped with the first electromagnetic valve and the second electromagnetic valve, described discharge nozzle are also provided with the 3rd electromagnetic valve, and described first electromagnetic valve, the second electromagnetic valve are connected with described controller respectively by wire with the 3rd electromagnetic valve.
5. the impregnation tank with heat sink according to claim 2, is characterized in that:
Described discharge nozzle is also provided with flow sensor, and described flow sensor is connected with described inductor by wire.
6. the impregnation tank with heat sink according to claim 1-5 any one, is characterized in that:
The height of described interlayer is less than the height of described impregnation tank.
Priority Applications (1)
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CN201420543297.1U CN204174479U (en) | 2014-09-19 | 2014-09-19 | A kind of impregnation tank with heat sink |
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CN201420543297.1U CN204174479U (en) | 2014-09-19 | 2014-09-19 | A kind of impregnation tank with heat sink |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105369502A (en) * | 2015-10-30 | 2016-03-02 | 芜湖华烨工业用布有限公司 | Online sizing material control system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105369502A (en) * | 2015-10-30 | 2016-03-02 | 芜湖华烨工业用布有限公司 | Online sizing material control system |
CN105369502B (en) * | 2015-10-30 | 2018-01-16 | 芜湖华烨工业用布有限公司 | Online sizing material control system |
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Effective date of registration: 20180511 Address after: 262704 Fuji Street South East Ring Road West of Los Angeles street, Shouguang City, Weifang, Shandong Patentee after: Shandong Dongyu Hongxiang Decoration Material Co., Ltd. Address before: 262700 Yinhai Road, Shouguang City, Weifang, Shandong Province, No. 28 Patentee before: Sun Guanjun |
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TR01 | Transfer of patent right |